Skip to main content
Advertisement
Browse Subject Areas
?

Click through the PLOS taxonomy to find articles in your field.

For more information about PLOS Subject Areas, click here.

  • Loading metrics

A new survey to evaluate conflict of interest policies at academic medical centers

  • Marcia Hams,

    Affiliation Community Catalyst, Boston, MA, United States of America

  • Wells G. Wilkinson,

    Affiliation Community Catalyst, Boston, MA, United States of America

  • Lynn Zentner,

    Affiliation Office of Institutional Compliance at the University of Minnesota, Minneapolis, MN, United States of America

  • Cory Schmidt,

    Affiliation Innovation Management and Conflict of Interest (IM&COI) Program at Cleveland Clinic, Cleveland, OH, United States of America

  • Raed A. Dweik,

    Affiliations Innovation Management and Conflict of Interest (IM&COI) Program at Cleveland Clinic, Cleveland, OH, United States of America, Cleveland Clinic Lerner College of Medicine of Case Western Reserve University, Cleveland, OH, United States of America

  • Matthew Karafa,

    Affiliation Department of Quantitative Health Sciences, Cleveland Clinic, Cleveland, OH, United States of America

  • Susannah L. Rose

    roses2@ccf.org

    Affiliations Innovation Management and Conflict of Interest (IM&COI) Program at Cleveland Clinic, Cleveland, OH, United States of America, Cleveland Clinic Lerner College of Medicine of Case Western Reserve University, Cleveland, OH, United States of America, Office of Patient Experience, Department of Bioethics, at Cleveland Clinic, Cleveland, OH, United States of America

Abstract

Background

A majority of academic medical centers (AMCs) have now adopted conflict of interest policies (COI) to address relationships with pharmaceutical and device industries that can increase the risk of bias in patient care, education and research. However, AMCs may have little information on the impact of their policies. This paper provides a new method, which is a free, publicly-available survey, to fill this information gap and improve COI programs at AMCs.

Methods & findings

The survey, piloted in three AMCs and designed in collaboration with national conflicts of interest policy experts, covers a range of universal compliance-related concerns, which allows institutions to tailor questions to align with their own policies and culture. The survey was low-burden, and provided important data for these AMCs to evaluate their policies. A descriptive analysis of the pooled pilot site data (n = 1578) was performed, which found that a majority of respondents did not have financial ties with industry and a majority was satisfied with specific COI policies at their institutions. The analysis also showed that the survey is sensitive to differences that AMCs will find meaningful. For instance, individuals with industry ties were significantly more likely than individuals without ties to think that COI policies unnecessarily hindered interactions with industry (p = .004), were ineffective at reducing harm to patients (p < .001), and were ineffective in reducing bias in medical education (p>.001).

Conclusion

The survey is now free and publicly available for use by any institution. AMCs can use the results to update and refine policies, and to provide ongoing education regarding existing policies.

Introduction

Relationships of physicians, researchers, and medical institutions with the pharmaceutical, device, and biotechnology industry contribute to the advancement of medical research and the development of life-saving technologies. However, these academic-industry partnerships are pervasive [1], and they can create conflicts of interest (COI) that may increase the risk of harm to patients, bias research and jeopardize public trust in academic medical centers (AMCs) [27]. In response, medical leaders [8], public officials [9], and advocates have recommended that AMCs adopt comprehensive conflict of interest policies to protect the integrity of patient care, medical education and research [10]. Researchers have also developed additional tools to address these concerns, such as a disclosure checklist to strengthen and standardize reporting of financial conflicts of interest. [11]

A majority of AMCs have now adopted written COI policies [12], which are periodically analyzed and rated [13, 14]. However, AMCs often have little information on the impact of their policies, including how they are perceived by their staff. In this paper, we discuss the development and results of piloting in three sites of a standardized survey instrument to fill this information gap. We studied (1) the feasibility of implementing this survey, (2) its ability to measure self-reported relationships with industry as well as knowledge of COI policies and respondent’s reactions to them and (3) its potential utility to COI administrators engaged in the ongoing challenge of revising and implementing new COI policies and practices.

Materials and methods

Survey goals and development

Our goal was to develop a freely available, user-friendly survey to measure perceptions and effectiveness of COI policies at AMCs. Additionally, information from the survey could assist institutional COI compliance leaders in effectively designing and implementing policies, as well as to evaluate them for improvement. To be clear, the goal of the quantitative analysis is not to make comparisons across the study sites or to draw generalizable conclusions about COI based upon survey responses. Rather, the goal of this analysis is twofold: 1) to provide evidence that the survey is sensitive to differences that AMCs will find meaningful; and 2) to provide preliminary descriptive pilot data that might be used in future investigations with more sites.

Community Catalyst, a non-profit health advocacy organization, established a “COI Policy Effectiveness Work Group” in June 2012 and regularly met with members to design the survey based on institutional compliance leader priorities. The Work Group included national experts on COI policy and compliance, and was chaired by LZ. The members were recruited from among leaders in the Association of American Medical Colleges’ Forum on Conflict of Interest in Academe. One member is a Dean and the others are Directors or former Directors of Offices of Compliance, Ethics, and/or Conflicts of Interest. To ensure universal applicability across medical schools and AMCs, the survey questions covered a range of universally applicable compliance-related concerns, while still allowing institutions to tailor for alignment with their own policies and culture. The survey needed to be brief and accessible via a widely available survey platform (Research Electronic Data Capture, REDCap [15]), and user-friendly to deploy and to analyze.

The content of the survey was developed by conducting a literature review and by seeking the input of the Work Group experts. A draft was refined by gaining interactive feedback from group members. The survey was further refined, both in format and in content, by testing it with selected volunteers through cognitive interviews with eight experts in the field to evaluate their cognitive processes as they completed the survey. Specifically, we assessed participants’ comprehension of instructions and survey questions, in addition to testing skip patterns and other survey organizational structures. We asked them about the deliberations they used to answer questions. Additionally, we asked about any missing survey components that they felt needed to be added [16]. We conducted interviews to the point of data saturation (n = 8) and then coded them for thematic content related to survey improvement. These themes were then carefully reviewed by MH, WW and SR, and all the themes were addressed in the final survey revisions. Finally, the survey was tested on approximately 50 people across the three pilot institutions to ensure online functionality.

The survey addresses domains which were identified as priorities by the Work Group experts who recommended that the instrument should be able to assess knowledge and awareness of COI policies; determine whether policies were being followed; assess perceptions of the value and/or burden of policies; and provide information to improve policies and implementation. Collecting some demographic information was also necessary for purposes of interpreting the results and planning follow-up interventions such as education. The domains and the specific elements of the survey are described in Table 1.

Process for piloting

The survey was piloted April 2014 through January 2015 in three AMCs (n = 1578). The institutions varied in size, type (public/private, medical school/teaching hospital) and overall policy strengths, as rated by the American Medical Student Association [13] and the Institute on Medicine as a Profession [14]. All sites surveyed medical school faculty and administration. Site 3 also included residents, and Site 2 included additional faculty from dental and veterinary schools. Each site formed an implementation team and secured the support of institutional leadership. All institutions received an exemption from their Institutional Review Board (IRB), given that this was an anonymous survey with “minimal risk” intended to improve the quality of COI programs. No financial incentives were provided to respondents. In email messages from institutional leaders distributing the survey to staff and other recipients, participation in the survey was encouraged. Participants could opt-out of the survey by declining to follow the hyperlink to the survey, or by declining to submit their results after initiating the survey. Participants could also opt out of specific questions by declining to submit an answer. Consent to participate was implied by recipients’ conduct to complete and submit the survey. Between 70% to 90% of recipients at the three sites chose not to submit the survey, and thus opted out.

The electronic survey was supplied, allowing each site to easily upload the survey to their internal institutional REDCap accounts, and to customize their COI policy summaries and details about certain questions to align with their institution’s policies. Each site developed an implementation strategy, including who should receive the survey (e.g. faculty, fellows, residents, researchers, nurses, students, etc.) and how it should be disseminated (e.g. as a link in an email or on an intranet site). Each site collected and analyzed their results. SR, WW and MH were available to help sites through the process and to answer general questions. Given that the goal of this project is to test the feasibility of implementing the survey at the institutional level, minor changes to the survey were encouraged.

Qualitative methodology: Survey implementation

WW, SR and/or MH conducted two semi-structured interviews on the implementation, preliminary results and possible implications with staff who fielded the survey at each site. These interviews were audio-recorded, with verbal permission provided by all parties. The interviews were transcribed and coded for content themes by WW and MH, and discrepancies were resolved in consensus meetings that also included SR.

Quantitative methodology: Survey results from pilot sites

Descriptive statistics were calculated on the survey results using SAS v9.2 [17]. Overall response summaries were examined as well as differences by those who had any ties to industry at all, any “Group A” ties or any “Group B” ties. Group A financial ties include industry-provided free or reimbursed food; supplies; drug/medical samples; travel; entertainment; or subsidized admission to CME. Group B financial ties include industry financial support for speaking at CME or non-CME events; consulting; commercialization of intellectual property; participating in an endpoint adjudication committee; or participating in research. Based on the literature and their experience with AMC policies, the Work Group recognized these two sets of relationships are treated somewhat differently by AMCs. Group A relationships are transfers of value to physicians and are not compensation for services provided. Institutions generally place substantial restrictions on Group A financial relationships because they are more casual relationships whose value to providers is outweighed by their risks to patient safety, medical education and scientific integrity.

Group B relationships with industry are seen as more necessary for the conduct of research and development, which is reflected in more nuanced policies that allow for the relationships but aim to ensure that relationships do not adversely affect the integrity of research, medical education or patient care. The exception in this group is industry speaking engagements, especially for non-CME events, which present greater risks of introducing bias, as reflected in more restrictive policies at many AMCs. [13, 14] Group B relationships are also more significant in terms of time and direct pecuniary gain associated with services or intellectual contribution and tend to require a written contract.

Comparisons of these groups were performed using either a chi-square test or a T-test (or its non-parametric analogues where appropriate). Multivariate modeling was not planned or conducted given the goals of this study, described above.

Results and discussion

Survey distribution and response rates

A total of 1578 faculty and staff responded to the survey at the three sites. The response rate varied from 30% at Site 1 (n = 958), to 15–20% at Site 2 (n = 446) and 10–30% at Site 3 (n = 125). The response rates for Sites 2 and 3 are estimates, given that the denominator is not easily determined, based upon the method of survey deployment (e.g., a survey link was posted on an internal website). Site 1 used a method of direct emails to potential respondents, so the response rate was more precise. The distribution details and response rates are described in Table 2.

It is possible that those who chose not to respond might disproportionately have ties with industry. However, many who have relationships with industry did respond and the survey allows them to comment on how they perceive the impact of the policies, both positive and negative. Comments submitted by respondents also indicated that they appreciated this opportunity for feedback, which was valued by the compliance leaders and was not used for sanctions.

Site 1 used the personalized email distribution function in REDCap, which still allows for anonymity. The message appeared as a personal email from the compliance director, but it could not be emailed or forwarded by other leaders. Reminders are directed only to those who have not responded. Site 2 distributed the survey via a link in personal emails from department leaders, and sent two non-targeted reminders. The compliance staff delegated the decision concerning who should receive the survey to department leaders, which created challenges in targeting. Site 3 distributed the survey by directing faculty/staff to a link at the end of the intranet page where they completed mandatory annual online COI disclosures. The lower response rate may indicate potential respondents did not want to complete the survey after spending time on the disclosure form. In addition, reminders could not be sent.

Based upon the interviews with the site survey administrators, the overall level of effort to implement the survey and analyze the results at each site was an estimated 35 hours. Site teams typically included the compliance director, an associate director, a coordinator and a data analyst. Overall, the survey deployment and administration was low-burden, as described in the content themes detailed below.

Qualitative results: Survey implementation

Implementation.

Gaining support from a wide range of institutional leaders and faculty was seen as critical to survey implementation and response rates. Teams found REDCap easy to use for customizing the survey content, launching the survey and analyzing results, and they used their own institutional on-site administrative REDCap support.

Utility of the survey process and results.

Respondents represented a broad cross-section of departments, medical specialties, and years in practice, which site leaders thought was similar to the populations sampled.

All site leaders desired to benchmark their constituencies’ knowledge and views of institutional policies and thought the survey was well received. It gave respondents an important opportunity to provide feedback, seen as instrumental to identifying next steps for policy improvement. There was some concern about lower response rates in the sections on perceptions of the impact of specific policies, which could reflect the length of that section, or that respondents did not have adequate knowledge of the policies to respond at that level of detail. Overall, the sites recommended implementation of the survey tool at other institutions. One leader stated: “The value of this [survey] cannot be overestimated.”

A preliminary quantitative analysis by site found that a majority of respondents rated specific policies as “satisfactory,” which site leaders found gratifying. One stated: “By and large there was a consensus that favored the policies in their current form. But I was glad to receive some negative comments, because it gives more credibility to the survey.” The majority of respondents at each site had no financial ties with industry, which was seen by leaders as consistent with internal disclosures to the institutions.

Site leaders reported that the survey gave them a more valid picture of people’s perspectives, since they more commonly interact with professionals dissatisfied with COI policies and/or those with industry relationships. One leader thought the survey was also superior to the “typical” model of relying on leadership and focus groups for feedback. In addition, it addresses industry ties not included in standard internal disclosures and thus “surfaced some issues, such as meals at off-site meetings that may need to be addressed down the line.”

Quantitative results: Survey results from pilot sites

Characteristics of respondents.

Respondents across sites were predominantly physicians (64.5%), researchers (18.3%), professors (12.6%), and institutional leaders (chair, chief of service) (4.5%). Clinicians were from 33 different specialties, mostly highly represented in pediatrics (8.6%), internal medicine (8.6%), anesthesiology (8.1%), and radiology (6.7%). There was a good distribution of respondents by years since completing the terminal degree, with most in the 11–20 year bracket (27.4%) and the 21–30 year bracket (27.8%). See Table 3 for more details.

Knowledge of COI policies and desire for further education.

Over 90% of respondents were aware that COI policies exist at their institutions. There was variation, however, in their awareness of specific policies: 77.5% on acceptance of gifts, food or entertainment; 75.8% on managing conflicts of interest in research; 71.3% on endorsements/promotional statements; 58.9% on participation in industry sponsored events; 57% on industry funding for CME; 57% on ghostwriting; and only 21.8% aware of policies on restrictions on access provided to sales representatives, and 22.6% on recruiting patients for clinical research. Some open text comments also indicated a lack of knowledge and/or understanding of the policies. One site leader concluded that more education is needed and could be offered in mandatory online education, using “bite-sized components summarizing key principles”.

A majority of respondents (58.4%) reported no industry financial ties; 36.9% reported “Group A” ties (free or reimbursed food, supplies, samples, travel, entertainment, or support for CME); 21.8% reported “Group B” ties (industry support for CME events; consulting; commercialization of intellectual property; participating in endpoint adjudication committee; or participating in research). See Table 3.

Across both Group A and B, the most frequently reported financial ties were for meals (19.8% outside the workplace and 13.4% inside the workplace); consulting (11.8%); payment for services on advisory boards (9.8%); research (9.3%); speaking at non-accredited CME meetings (7.2%); speaking at accredited CME meetings (5.6%); and travel to professional meetings (5.3%). See Table 4 for details.

thumbnail
Table 4. Description of respondents’ financial ties with industry (n = 1578).

https://doi.org/10.1371/journal.pone.0172472.t004

Faculty perceptions of COI policies.

The vast majority of respondents (85%) were satisfied with their institution’s policies on financial disclosure; human subjects’ protections; and industry support for speaking or consulting. A large majority (80%) were satisfied with the policy on disclosure to patients (Site 1 only). Satisfaction was lowest across all sites for policies on industry payment for meals (72.7%); and restricting access of industry sales representatives (70%). See Fig 1 for details.

thumbnail
Fig 1. Respondents’ satisfaction with their institution’s COI policies.

https://doi.org/10.1371/journal.pone.0172472.g001

Six follow-up questions on each policy measured perceptions of specific impacts. While response rates were lower for these follow-up questions, the results were nevertheless consistent with the results on overall satisfaction with policies. 60–67% of respondents perceived positive impacts of five policies (speaking; consulting; financial disclosure; sales representative access; and human subjects’ protections) in reducing harm to patients or research subjects, to bias in medical education and to research validity, while only 34–37% found these policies to unnecessarily hinder interactions with industry or hinder commercialization of intellectual property. Rates for perceived positive impacts were somewhat lower for the policies on meals and restricting access to sales representatives, while perceptions of negative effects were somewhat higher. See Table 5 for more details.

thumbnail
Table 5. Respondent perceptions of impact of selected COI policies (%).

https://doi.org/10.1371/journal.pone.0172472.t005

Differences in perceptions of “restrictiveness” of policies between those with and without financial ties to industry.

We compared perceptions of the six to seven selected policies between those with any financial ties with industry and those without, as well as those in the “Group A” and “Group B” lists. Participants were asked if each policy “is satisfactory,” “is overly restrictive” and “needs to be strengthened.” While the majority of respondents considered policies to be satisfactory, the survey was able to detect significant differences in perceptions of restrictiveness (p-value < .001 in nearly all cases) between those with any ties and those without ties. (See Table 6 for more details.) This also held true when we distinguished between those with ties in the “Group A” and “Group B” lists. The survey was also sensitive to differences in the types of ties of respondents.

thumbnail
Table 6. Respondent perception of selected COI policies (%) by those with and without financial ties to industry.

https://doi.org/10.1371/journal.pone.0172472.t006

We also analyzed the follow-up questions for each policy by ties with industry. The differences between those with and without relationships were significant in most cases and the pattern was consistent—i.e. those with industry ties were significantly more likely than those without industry financial ties, to think that policies had negative effects (unnecessarily hindered interactions with industry and commercialization of intellectual property).

In the final survey question, respondents (n = 901–938) estimated the percentage of faculty that had six specific ties with industry. Respondents estimated that colleagues had on average twice as many ties as the results shown in the self-report sections of the survey.

Conclusions

The results of this project demonstrate that surveying the target constituencies of COI policies at AMCs is both feasible and valuable. The COI administrators at each of these AMCs reported that the survey was low-burden. More importantly, the survey provided important data for these AMCs to evaluate their policies—something that is currently not systematically done among AMCs in the United States. Given that the survey is developed, free and ready to use in a format commonly supported by AMCs (REDCap) [14], the up-front costs to AMCs to utilize this tool have been significantly minimized.

AMCs can customize and implement this survey to gather information that is useful to help target and update ongoing education surrounding existing COI policies, to refine COI policies based on staff perceptions, and in some cases to gather evidence as to whether some of their policies are being adhered to. Data gathered with this survey will provide a significant improvement over what AMCs currently have at their disposal, which is usually feedback from people unhappy with specific policies and procedures. The survey provides a broader range of perspectives, including from those who have financial ties and from those who do not. Each institution that administers the survey would have to make its own individualized assessment of whether their staff’s awareness of, or support for, a COI policy affected the policy’s impact. Our expert Work Group recommended that the survey should measure awareness and support of policies, because hospital administrators may have skewed perspectives regarding employee perception of their policies, given that they hear most often from the few staff with extensive interactions with industry, some of whom may be running afoul of the restrictions on those interactions. However, beyond measuring awareness, impact on patient care, education, and research, and perception of policies, the survey also includes sections on self-reported relationships with industry. Thus, it could be administered periodically to measure changes in those relationships and compliance, perhaps as a pre and post-test of newly introduced policies or education on policies. Yet simultaneously measuring awareness and support for the institution’s policies remains critical, because changes in reported interactions with industry could be the result of external forces as well.

Our results are significantly different on some measures than that reported in a national survey by Campbell and colleagues in 2009 [1], which found that 83.8% of primary care and specialty physicians had relationships with industry. By far the highest percent of reported relationships was for industry supplied gifts (70.8%), food/beverage (70.6%) and drug samples (63.8%). However, that study did not stratify results by practice site, and AMCS in general and our pilot sites in particular, have very restrictive policies on acceptance of gifts, food/beverages and samples, many implemented since 2009. This is reflected in our results: only 13.4% (inside the workplace) and 19.8% (outside the workplace) received food or beverages from industry and only 2.6% received samples. Indeed, this contrast is a good indication that the pilot site policies may be having an impact in these areas, even though compliance could still be improved for food/beverages. Under policies at two of our pilot sites staff cannot accept samples or gifts of any kind from vendors, and the third site has significant restrictions on both as well. Where policies in our pilot sites are less restrictive and nuanced, such as speaking and consulting, the percentages of respondents with relationships are comparable. Campbell et al found that 6.7% were paid for consulting, compared to 11.8% in our sample (likely due to the role of research at AMCs), and Campbell et al found that 8.6% were in speaker’s bureaus, nearly identical to our results, where 9.3% were paid for speaking at non-accredited CME activities and 7.2% for CME accredited events.

While a low response rate was identified as a potential concern by Sites 2 and 3, those rates are typical for physician surveys, especially when no financial incentive is provided [18]. We recommend that people use a particular feature in REDCap that allows for personalized, direct emails, while allowing for anonymous responses. Furthermore, we encourage AMCs to gain the support of institutional leaders, who can best impart the importance of this survey to their employees and faculty members.

The in-depth analysis of perceptions of policies by those with and without ties shows the survey is able to distinguish significant differences between groups of faculty. These data can assist institutional leaders in further understanding faculty perceptions and tailoring effective responses. For instance, the results could surface the need for education in particular departments or on specific policies, as well as the need to better enforce some policies or revise others.

The survey is now freely available (see S1 Appendix) for use by any institution to help assess COI policy compliance, awareness and perception of policies. An internal evaluation tool like this may be especially valuable in light of the CMS’ Open Payments program, which publicly reports payments and transfers of value to physicians and teaching hospitals by the drug, device and biologic industry [19].

Supporting information

Acknowledgments

The authors wish to thank the other members of the COI Policy Effectiveness Workgroup for their collaboration on the project and the survey development: Guy Chisolm, III, PhD, former Director, Innovation Management and Conflict of Interest (IM&COI) Program at Cleveland Clinic; Susan Ehringhaus, JD, Senior Manager, Office for Interactions with Industry, Partners HealthCare; Julie Gottlieb, MA, Associate Dean, Policy Coordination, Johns Hopkins University School of Medicine; Ross McKinney, Jr., MD, Director, Trent Center for Bioethics, Humanities, and History of Medicine, Duke University; John T. Randolph, JD, Vice President and Chief Compliance Officer, UMass Memorial Health Care. We also thank Kathy Melley of Community Catalyst, Sallyann Bergh of The Pew Charitable Trusts, and Ariane Mitchum of Cleveland Clinic for editorial assistance.

Other disclosures

None reported.

Ethical approval

The survey was reviewed and received exempted status from the Cleveland Clinic and each pilot site’s institutional review boards.

Previous presentations

Presentations on the COI Policy Effectiveness Survey were made at the Community Catalyst Conflict of Interest Webinar for New England, Pennsylvania and New Jersey Medical Schools and AMCs, October 2014; and at the Edmond J. Safra Center for Ethics Lab Seminar, Harvard University, November 2014.

Author Contributions

  1. Conceptualization: MH WW LZ CS RD SR.
  2. Data curation: MH WW CS RD SR LZ.
  3. Formal analysis: MH WW LZ CS RD SR MK.
  4. Funding acquisition: MH WW SR.
  5. Investigation: MH WW LZ CS RD SR MK.
  6. Methodology: MH WW LZ CS RD SR MK.
  7. Project administration: MH WW SR.
  8. Resources: MH WW LZ CS RD SR MK.
  9. Software: MH WW SR MK.
  10. Supervision: MH.
  11. Validation: WW SR MK.
  12. Visualization: MH WW LZ CS RD SR MK.
  13. Writing – original draft: MH WW LZ CS RD SR MK.
  14. Writing – review & editing: MH WW LZ CS RD SR MK.

References

  1. 1. Campbell EG, Rao SR, DesRoches CM, Iezzoni LI, Vogeli C, Bolcic-Jankovic D, et al. Physician professionalism and changes in physician-industry relationships from 2004 to 2009. Arch Intern Med. 2010; 170(20):1820–6. pmid:21059976
  2. 2. Lo B. Serving two masters–conflicts of interest in academic medicine. N Engl J Med. 2010; 362(8):669–71. pmid:20181969
  3. 3. Lo B and Field MJ, eds. Institute of Medicine. Conflict of Interest in Medical Research, Education and Practice. Washington, D.C.: The National Academies Press; 2009. Available: http://www.nap.edu/catalog/12598/conflict-of-interest-in-medical-research-education-and-practice.
  4. 4. Robertson C, Rose S, Kesselheim AS. Effect of financial relationships on the behaviors of health care professionals: a review of the evidence. J Law Med Ethics. 2012 Fall; 40(3):452–66. pmid:23061573
  5. 5. Association of American Medical Colleges. Industry Funding of Medical Education. Report of AAMC Task Force. Washington, D.C.; 2008.
  6. 6. OIG Compliance Program Guidance for Pharmaceutical Manufacturers. Fed Regist. 2003; 68(86):23731–43.
  7. 7. Brennan TA, Rothman DJ, Blank L, Blumenthal D, Chimonas SC, Cohen JJ, et al. Health industry practices that create conflicts of interest: a policy proposal for academic medical centers. JAMA. 2006; 295(4):429–33. pmid:16434633
  8. 8. Association of American Medical Colleges. Recommendations for Physician Financial Relationships in Clinical Decision Making: Report of the Task Force on Financial Conflicts of Interest in Clinical Care. Washington, D.C.; 2010:10.
  9. 9. Use of Educational Grants by Pharmaceutical Manufacturers. Committee staff report to the chairman and ranking member, U.S. Senate Committee on Finance, 110th Cong.,1st Sess. Washington: U.S. Government Printing Office; 2007.
  10. 10. Conflict-of-Interest Policies for Academic Medical Centers: Recommendations for Best Practices. The Pew Charitable Trusts; Dec 2013.
  11. 11. Rochon PA, Hoey J, Chan A, et al. Financial Conflicts of Interest Checklist 2010 for Clinical Research Studies. Open Medicine. 2010 ;4(1):E69. pmid:21686297
  12. 12. Chimonas S, Patterson L, Raveis VH, Rothman DJ. Managing Conflicts of Interest in Clinical Care : A National Survey of Policies at U.S. Medical Schools. Acad Med. 2011; 86(3):293–9. pmid:21248603
  13. 13. AMSA scorecard. American Medical Student Association. 2014. Available: http://www.amsascorecard.org/.
  14. 14. COI Policy Database. Institute on Medicine as a Profession. 2016. Available: http://imapny.org/conflicts-of-interest/conflicts-of-interest-2/
  15. 15. Harris PA, Taylor R, Thielke R, Payne J, Gonzalez N, Conde JG. Research electronic data capture (REDCap)—A metadata-driven methodology and workflow process for providing translational research informatics support. J Biomed Inform. 2009 Apr; 42(2):377–81. pmid:18929686
  16. 16. Beatty PC, Willis GB. Research Synthesis: The Practice of Cognitive Interviewing. Public Opinion Quarterly, Vol. 71, No. 2, Summer 2007, pp. 287–311.
  17. 17. SAS. Version 9.2 TS1M2 for Unix. Copyright (C) 2012. SAS Institute Inc, Cary NC, USA.
  18. 18. Bolt EE, van der Heide A, Onwuteaka-Philipsen BD. Reducing questionnaire length did not improve physician response rate: a randomized trial. J Clin Epidemiol. 2014; 67(4):477–81. pmid:24290148
  19. 19. Open Payments. Center for Medicare & Medicaid Services. 2016. Available: http://www.cms.gov/Regulations-and-Guidance/Legislation/National-Physician-payment-Transparency-Program/index.html.